JP2005057598A - Color image forming device and color image processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce a storage area for holding image data required for preview display or thumbnail display. <P>SOLUTION: Image data of an image to be outputted onto a recording sheet is written in an image memory 4 by an image output part 6, and image data written and held in the image memory 4 is read out when a preview or a thumbnail is displayed on a color display device 7. Z-bit image data of each of RGB color components to be inputted to the color display device 7 is generated by performing prescribed processing of image data of CMYK color components read from the image data by a preview/thumbnail image processing part 8. Image data to be written in the image memory 4 is image data of CMYK color components after halftone processing and has the bit width shorter than the bit width Z of image data to be inputted to the color display device 7. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a color image forming apparatus having a preview function and the like and a color image processing apparatus applied thereto.

  For example, a document image is read by a CCD image sensor configured by arranging a plurality of color CCD elements in a line, and analog image signals of RGB color components output from the CCD image sensor at this time are A / D converted. There is provided a color copying machine that reproduces an original image in color on paper based on the color image data obtained in this way.

  In such a color copying machine, in order to meet the demand for higher functionality, a color display is provided, and the output state of the original image read by the CCD image sensor is reproduced before being reproduced (output) on paper. It has been proposed to display a preview on a display device or to display a plurality of document images read by a CCD image sensor as thumbnails (list display).

Since a color display (for example, a color LCD or a color CRT display) is configured to output full color by RGB additive color mixture, for example, in the image processing apparatus disclosed in Patent Document 1, a CCD image sensor is used for manuscripts. Image data of RGB color components obtained by reading an image is held in a memory, and a preview image is displayed on a color display based on the color image data held in the memory.
JP-A-9-37096

  Image data of each RGB color component obtained by reading a document image with a CCD image sensor is, for example, 8-bit data. The 8-bit RGB color component image data is held in a memory, and a preview image is displayed on a color display. In order to display thumbnail images, a memory having a storage capacity of 64 MB or more is required. The larger the storage capacity, the more expensive the memory. Therefore, if a memory with a small storage capacity can be used as the memory for storing image data for preview display and thumbnail display, the cost of the color copier will be reduced accordingly. Can be reduced.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a color image forming apparatus and a color image processing apparatus capable of reducing a storage area for holding image data necessary for preview display and thumbnail display.

  In order to achieve the above object, according to the first aspect of the present invention, by performing halftone processing on input CMYK color component image data (input image data), the bit width is larger than that of the input image data. A halftone processing unit (37) for generating small CMYK color component image data, an image memory (4) for holding the CMYK color component image data generated by the halftone processing unit, and the image memory Based on the stored image data of each color component of CMYK, an image output means (6) for outputting a color image on a recording sheet using colorants of each color of CMYK, and displaying an image based on the image data of each color component of RGB The color display device (7), and the CMYK color component image data held in the image memory, by performing predetermined processing, the color Display data generating means (8) for generating image data of RGB color components to be input to the display device (image data of RGB color components for each pixel of the image to be displayed on the color display device). A color image forming apparatus.

  In addition, the alphanumeric characters in parentheses represent corresponding components in the embodiments described later. The same applies hereinafter.

  According to the above configuration, predetermined processing is performed on the image data of each CMYK color component stored in the image memory, thereby generating image data of each RGB color component to be input to the color display device. An image is displayed on the color display device based on the generated image data.

  The image data written in the image memory is image data of CMYK color components after halftone processing. For example, image data acquired by reading a document image by a CCD image sensor or the like (image data before halftone processing) Therefore, according to the above configuration, the color display device is compared with the conventional configuration in which image data acquired by reading a document image by a CCD image sensor or the like is held in a memory. It is possible to reduce the storage area for storing image data of an image (for example, a preview image or a thumbnail image) to be displayed.

  According to a second aspect of the present invention, the display data generation means performs a reduction process for obtaining an average value of image data for the number of pixels corresponding to a predetermined reduction ratio for each color component of CMYK, and the average value of the reduction The color image forming apparatus according to claim 1, further comprising a reduction processing means (82) for outputting the image data as image data of one pixel of an image to be displayed on the color display device.

  When the size of the image to be displayed on the color display device is smaller than the color image output on the recording sheet based on the image data of CMYK color components held in the image memory, the number of image data is displayed in color. It is necessary to reduce the number of pixels according to the number of pixels constituting an image to be displayed on the apparatus.

  The reduction ratio refers to a ratio of an image to be displayed on a color display device with respect to a color image output on a recording sheet based on image data of CMYK color components held in an image memory.

  According to the above configuration, in the reduction process, for each color component of CMYK, one pixel constituting the image to be displayed on the color display device is an average value of the image data after bit width conversion corresponding to the pixel corresponding to the reduction rate. Image data.

  The halftone processing performed by the halftone processing means is so-called area gradation processing, and an image output to a recording sheet or the like based on the image data after the halftone processing has an image density of dot area ratio ( (Dense and dense). Therefore, a favorable reduction process is achieved by using the addition average value of the image data after bit width conversion corresponding to the reduction ratio as the image data of one pixel constituting the image to be displayed on the color display device. And an image with good image quality can be displayed on the color display device.

  According to a third aspect of the present invention, the display data generating means includes a bit width of image data of CMYK color components held in the image memory and a bit width of image data of RGB color components to be input to the color display device. The color image forming apparatus according to claim 2, further comprising a reduction rate limiting unit (83) for setting an upper limit value of a reduction rate in the reduction processing by the reduction processing unit based on is there.

  If the reduction ratio is set to a large value in the reduction process, there is a possibility that a so-called gradation skip occurs in an image displayed on the color display device based on the image data after the reduction process.

  For example, if the image data is 1-bit data held in the image memory, the image output on the recording sheet based on the image data is 16 pixels in the main scanning direction × 16 pixels in the sub-scanning direction (= 256 pixels). 256 gradations are expressed by the matrix. In this case, the reduction ratio is set to a large value, and the addition average value of the image data for 8 × 8 pixels smaller than 16 × 16 pixels is the image data of one pixel constituting the image to be displayed on the color display device. Then, only 64 gradations are expressed in the image displayed on the color display device based on the image data, and a pseudo contour may appear in the display image.

  According to the above configuration, the upper limit value of the reduction ratio in the reduction process is appropriately set based on the bit width of the image data held in the image memory and the bit width of the image data to be input to the color display device. . Thus, based on the image data after the reduction process, an image having a gradation equal to or higher than that of the image output on the recording sheet by the image output unit can be displayed on the color display device.

  According to a fourth aspect of the present invention, the display data generation means includes the bit widths of the image data of CMYK color components before the reduction processing means of the image data of RGB color components to be input to the color display device. 4. The color image forming apparatus according to claim 2, further comprising bit width conversion processing means (81) for converting the bit width to the same bit width.

  According to the fourth aspect of the present invention, the bit width conversion processing unit is provided in the preceding stage of the reduction processing unit, and the bit width conversion processing is performed prior to the reduction processing, so that the bit width after the reduction processing is performed. Compared with the case where the conversion processing is performed, the gradation displayed on the color display device can be improved.

  According to a fifth aspect of the present invention, the display data generating means includes CMY that does not include image data of K color components from image data of CMYK color components output from the reduction processing means at a later stage than the reduction processing means. CMY conversion processing means (84) for generating image data for each color component, and RGB conversion processing means (85) for converting image data for each CMY color component generated by this CMY conversion processing means into image data for each RGB color component. The color image forming apparatus according to claim 2, further comprising:

  In the halftone processing (screen processing) by the halftone processing means, the screens (halftone dots) of CMYK colors are formed with their positions shifted from each other in the image output on the recording sheet based on the image data after the intermediate processing. As described above, the processing may be performed with different phases of the image data of the CMYK color components. When such processing is performed, the phase of the image data of each color component of CMYK is shifted, and some of the image data of each color component of CMYK is “0” at each pixel position. When the processing by the conversion processing unit is performed, the color of the image displayed on the color display device may not be output correctly based on the image data of each CMY color component after the processing.

  According to the above configuration, the CMY conversion processing means is provided in the subsequent stage from the reduction processing means. Since the image data of each color component of CMYK after the reduction process is the respective addition average value of the image data of each color component of CMYK for a plurality of pixels, the image data of each color component of CMYK is correctly included at each pixel position. Therefore, by performing the processing by the CMY conversion processing means after the reduction processing, it is possible to display an image with a correct color on the color display device.

  According to a sixth aspect of the present invention, the color image forming apparatus includes a second color display device (70) for displaying an image based on image data having a bit width different from that of the image data input to the color display device. A second bit which is configured to be connectable and converts the bit width of the image data of each RGB color component generated by the RGB conversion processing means into the bit width of the image data to be input to the second color display device 6. The color image forming apparatus according to claim 5, further comprising width conversion processing means (87).

  According to this configuration, each processing means provided before the RGB conversion processing means generates image data to be input to the color display device, and generates image data to be input to the second color display device. Can be shared. Therefore, it is possible to obtain a color image forming apparatus having a configuration capable of connecting the second color display device without causing a significant increase in cost.

  The invention according to claim 7 is a color image processing apparatus applied to a color image forming apparatus that forms a color image on a recording sheet using colorants of CMYK colors, and each color of CMYK subjected to halftone processing. An image memory (4) for holding the component image data and the color image forming apparatus provided with the color image forming apparatus by performing predetermined processing on the image data of the CMYK color components held in the image memory. And a display data generating means (8) for generating image data of RGB color components for each pixel of the image to be displayed on the color display device (7).

  According to the present invention, an effect similar to that described in relation to claim 1 can be obtained.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a block diagram showing the configuration of a digital color multifunction peripheral according to an embodiment of the present invention. The digital color multifunction peripheral has a copy function, a printer function, and a facsimile function. The CCD image sensor 1 optically reads an original image and outputs an analog image signal corresponding to the original image, and the CCD. An analog image signal output from the image sensor 1 is A / D converted to output multi-value (0 to 255) digital data (image data), and an A / D conversion circuit 2 outputs the analog image signal. An image processing unit 3 for performing various processes on the image data, an image memory 4 for storing the image data, and a memory control for controlling writing and reading of the image data to and from the image memory 4 Part 5.

  The CCD image sensor 1 is a line CCD image sensor in which a plurality of color CCD elements are arranged in a line, and reading of an original image by the CCD image sensor 1 is mainly performed in the arrangement direction of the color CCD elements. This is achieved by scanning and sub-scanning by relative movement of the CCD image sensor 1 with respect to the document. The color CCD element has red (R), green (G) and blue (B) color filters, and outputs analog image signals of RGB color components for each pixel constituting the original image.

  The A / D conversion circuit 2 performs A / D conversion on the analog image signals of the RGB color components output from the CCD image sensor 1, and outputs 8-bit image data for each of the RGB color components.

  The image processing unit 3 includes a shading correction processing unit 31, an input correction processing unit 32, a UCR / black generation processing unit 33, a color correction processing unit 34, a γ correction processing unit 35, a filter when the microcomputer executes program processing. A processing unit 36 and a halftone processing unit 37 are substantially provided.

  The shading correction processing unit 31 reads out image data input from the A / D conversion circuit 2 due to variations in sensitivity between CCD pixels of the CCD image sensor 1 and light distribution characteristics of a light source that illuminates a document. A shading correction process is performed to compensate for unevenness.

  The input correction processing unit 32 performs input γ processing for giving gradation characteristics proportional to the density of the document image to the image data after the shading correction processing. Further, the image data of each RGB color component after the input γ processing is converted into image data proportional to the respective color densities of the CMY3 primary colors which are complementary colors.

  The UCR / black generation processing unit 33 performs black generation processing for generating image data (black data) of the color component of black (K) using the image data of each color component of CMY for each pixel. Under color reduction (UCR) processing is performed using black data. In the black generation process, the minimum value of the image data of each CMY color component is detected, and black data is generated by multiplying the minimum value by a predetermined UCR rate. In the under color removal process, the black data is subtracted from the image data of the CMY color components, thereby generating image data of the CMY color components after the under color removal process.

  As described above, the black generation process and the under color removal process are performed, and a part of the image data of each CMY color component is replaced with the black data, thereby reducing the consumption amount of the color toner at the time of image output. Can do. Further, as a result of generating black data, an image is formed on a recording sheet using black toner, so that the achromatic color reproducibility in the output image can be improved.

  The color correction processing unit 34 performs color correction processing for improving color reproducibility in the output image on the image data of the CMYK color components input from the UCR / black generation processing unit 33.

  The γ correction processing unit 35 performs output γ processing for giving gradation characteristics proportional to the density of the output image to the image data of each color component of CMYK after the color correction processing by the color correction processing unit 34.

  The filter processing unit 36 performs filter processing corresponding to the area to which the pixel belongs to the image data of each color component of CMYK for each pixel after the output γ processing by the γ correction processing unit 35. For example, edge enhancement filter processing for enhancing the edge (contour) of an image is performed on image data of pixels belonging to a character area, and the image is smoothed on image data of pixels belonging to a halftone dot area. Smoothing filter processing is performed for the conversion.

  The halftone processing unit 37 performs halftone processing (area gradation processing) represented by binary error diffusion processing and 16-value dither processing (screen processing). The halftone processing unit 37 receives CMYK input from the filter processing unit 36. The 8-bit (256 values) image data of each color component is converted into X (X: integer of 1 or more) bits of CMYK color component image data. In the binary error diffusion process, the 8-bit image data after the filter processing by the filter processing unit 36 is converted into 1-bit (X = 1) image data. In the 16-value dither processing, a dither matrix is used, and 8-bit image data after the filter processing by the filter processing unit 36 is converted into 4-bit (X = 4) image data. X-bit image data of each color component of CMYK after halftone processing is output from the halftone processing unit 37 to the memory control unit 5.

  The memory control unit 5 writes the image data input from the image processing unit 3 via the copier I / F into the image memory 4. The memory controller 5 also receives image data sent from a personal computer (not shown) and image data received by facsimile communication via a printer I / F and a facsimile (FAX) I / F, respectively. It has come to be. The image data input from the printer I / F is P (P: integer greater than or equal to 1) bit image data of each color component of CMYK, and the above halftone processing has already been performed on this image data. Yes. The image data input from the facsimile I / F is F (F: integer of 1 or more) bit image data for each color component of CMYK, and halftone processing as described above has already been performed on this image data. Has been.

  The image data written in the image memory 4 is read from the image memory 4 when, for example, an operation panel arranged on the upper part of the main body of the digital color multifunction peripheral is operated by the user to instruct print output. The image output unit 6 outputs a color image on a recording sheet such as paper. The image output unit 6 includes, for example, four image forming units for forming black (K), magenta (M), cyan (C), and yellow (Y) single color toner images on a recording sheet in this order. And a structure called a tandem type arranged in a line from the upstream side in the conveyance direction of the recording sheet, and by superimposing black, magenta, cyan, and yellow single color toner images on the recording sheet, the original image A full-color image corresponding to is formed (reproduced) on a recording sheet.

  The digital color multi-function peripheral further displays a preview of the image output state on the recording sheet by the image output unit 6, and displays a plurality of images that can be output by the image output unit 6 as thumbnails (list display). A color display device 7 and a preview / thumbnail image processing unit 8 that performs image processing for preview display and thumbnail display in the color display device 7 are provided.

  The image data of CMYK color components for each pixel constituting the image that can be output on the recording sheet by the image output unit 6 is held in the image memory 4, for example, arranged on the upper part of the main body of the digital color multifunction peripheral. When the user operates the operated operation panel to instruct preview display or thumbnail display, the memory control unit 5 reads the image data held in the image memory 4.

  Image data (image data of CMYK color components) read from the image memory 4 is given to the preview / thumbnail image processing unit 8 and converted into image data of RGB color components suitable for the color display device 7. That is, when X-bit image data of each CMYK color component after halftone processing by the halftone processing unit 37 is held in the image memory 4, the X-bit image data of each CMYK color component is Z ( Z: integer greater than or equal to 2) bit image data. Further, when the P-bit image data of each CMYK color component input from the printer I / F to the memory control unit 5 is held in the image memory 4, the P-bit image data of each CMYK color component is the RGB color component. It is converted into Z-bit image data. Furthermore, when the F-bit image data of each CMYK color component input from the facsimile I / F to the memory control unit 5 is held in the image memory 4, the F-bit image data of each CMYK color component is converted to each RGB color component. To Z-bit image data. When the Z-bit image data of the RGB color components generated by the preview / thumbnail image processing unit 8 is input to the color display device 7, a preview image or thumbnail image is displayed on the color display device 7 based on the image data. Is displayed.

  The bit width Z of the image data input to the color display device 7 is, for example, Z = 8, and the bit width X, F, or P of the image data input to the memory control unit 5 is the color display device 7. Is smaller than the bit width Z of the image data input to.

  FIG. 2 is a block diagram showing the configuration of the preview / thumbnail image processing unit 8. The preview / thumbnail image processing unit 8 includes a bit width conversion processing unit 81, a reduction processing unit 82, a reduction rate determination processing unit 83, a CMY conversion processing unit 84, and an RGB conversion processing unit 85 when the microcomputer executes program processing. And a γ correction / color correction processing unit 86 are substantially provided.

  The bit width conversion processing unit 81 converts the X, P, or F bit image data of each CMYK color component read and input from the image memory 4 by the memory control unit 5 into a Z bit image data. . In this bit width conversion, the input image data is Din, the image data after the bit width conversion is Dout, the bit width of the input image data is n (= X, P, or F), and the image after the bit width conversion is When the bit width of data is m (= Z), this is achieved by performing the calculation of the following formula (1).

Dout = (2 ^m −1) × Din / (2 ⁿ −1) (1)
The bit width conversion can be achieved by bit-shifting the input image data. For example, in the case of converting the bit width of 4-bit image data into 8-bit image data, the bit shift technique is used. Then, the image data after the bit width conversion becomes data in the range of “0” to “240”, and the data in the range of “241” to “255” is lost. In order to display an image, it is preferable that bit width conversion is achieved by the calculation of the above formula (1).

  The reduction processing unit 82 performs a reduction process on the Z-bit image data of each CMYK color component after the bit width conversion, so that an image to be displayed on the color display device 7 (one frame of a preview image or a thumbnail image) is displayed. Z-bit image data of each color component of CMYK is generated for each pixel constituting the pixel. In the reduction process, for each color component of CMYK, the addition average value of the image data after bit width conversion corresponding to the reduction rate is used as image data of one pixel constituting the image to be displayed on the color display device 7. For example, when the reduction ratio is 10%, the result of adding 10 pixels in the main scanning direction × 10 pixels in the sub-scanning direction of the image data after bit width conversion for each color component of CMYK and dividing the added value by 100 Is image data for one pixel of the image to be displayed on the color display device 7 (image data after reduction processing). Here, the reduction ratio refers to the image on the recording sheet by the image output unit 6 based on the image data (image data held in the image memory 4) input to the preview / thumbnail image processing unit 8 (reduction processing unit 82). The ratio of the image to be displayed on the color display device 7 with respect to the image output to.

  The image data input to the preview / thumbnail image processing unit 8 (reduction processing unit 82) is image data after halftone processing by the halftone processing unit 37 of the image processing unit 3. The halftone process is a so-called area gradation process, and an image output to a recording sheet or the like based on the image data after the halftone process has an image density represented by a dot area ratio (rough / dense). Therefore, a favorable reduction process is achieved by using the addition average value of the image data after the bit width conversion corresponding to the reduction ratio as the image data of one pixel constituting the image to be displayed on the color display device 7. Therefore, an image with good image quality can be displayed on the color display device 7.

  However, when the reduction ratio is set to a large value in the reduction process, there is a possibility that a so-called gradation skip occurs in the image displayed on the color display device 7 based on the image data after the reduction process. For example, when the image data input to the preview / thumbnail image processing unit 8 is 1-bit data (X, F, or P = 1), the image output unit 6 outputs the image data on the recording sheet based on the image data. In the image, 256 gradations are expressed by a matrix of 16 pixels in the main scanning direction × 16 pixels in the sub-scanning direction (= 256 pixels). In this case, the reduction ratio is set to a large value, and the average value of 8 × 8 pixels of image data smaller than 16 × 16 pixels is an image of one pixel constituting the image to be displayed on the color display device 7. As data, only 64 gradations are expressed in the image displayed on the color display device 7 based on the image data, and there is a possibility that a pseudo contour appears in the display image. Therefore, in order to display on the color display device 7 an image having a gradation equal to or higher than that of the image output by the image output unit 6 on the recording sheet, the reduction ratio in the reduction process is (1/16) × 100 = It is necessary to limit it to 6.25% or less.

  Therefore, in this embodiment, a reduction rate determination processing unit 83 is provided, and the bit width X, P or F of the image data input to the preview / thumbnail image processing unit 8 and the image data after the bit width conversion processing are processed. In accordance with the bit width Z, a limit value (upper limit value) of the reduction rate in the reduction processing by the reduction processing unit 82 is set. The reduction rate limit value is given by the following equation, where n is the bit width of the image data input to the preview / thumbnail image processing unit 8 and m (= Z) is the bit width of the image data to be input to the color display device 7. Calculated according to (2).

Reduction ratio (%) ≦ 100 × {(2 ^m −1) / (2 ⁿ −1)} ^−1/2 (2)
By limiting the reduction ratio in this way, an image having a gradation of 2 ^m gradations or more can be displayed on the color display device 7 based on the image data after the reduction processing.

  Note that the bit width conversion process and the reduction process may be performed by switching the order of the processes. That is, the bit width conversion processing unit 81 may be provided after the reduction processing unit 82. However, as in the configuration of this embodiment, it is preferable that the bit width conversion processing unit 81 is provided in the preceding stage of the reduction processing unit 82, and the bit width conversion processing is performed prior to the reduction processing. Compared to the case where the bit width conversion processing is performed after the reduction processing, the types (ranges) of values that can be taken by the image data after the reduction processing and the bit width conversion processing are increased. It can be displayed on the device 7.

  The CMY conversion processing unit 84 performs reverse processing of the black generation processing by the UCR / black generation processing unit 33 of the image processing unit 3 so that black data is obtained from the image data of the CMYK color components after the reduction processing by the reduction processing unit 82. Image data of each removed CMY color component is generated. That is, by adding black data to the image data of each CMY color component after the reduction process, Z-bit image data of each CMY color component is generated. Then, the black data is set to “0”.

  In halftone processing (screen processing) by the halftone processing unit 37 of the image processing unit 3, screens (halftone dots) of CMYK colors are mutually connected in an image output on a recording sheet based on the image data after the intermediate processing. In some cases, the processing is performed by changing the phase of the image data of each color component of CMYK so that the positions are shifted. When such processing is performed, the phase of the image data of each color component of CMYK is shifted, and some of the image data of each color component of CMYK is “0” at each pixel position. When the processing by the conversion processing unit 84 is performed, the color of the image displayed on the color display device 7 may not be output correctly based on the image data of each CMY color component after the processing. Therefore, in this embodiment, the CMY conversion processing unit 84 is provided after the reduction processing unit 82. Since the image data of each color component of CMYK after the reduction process is the respective addition average value of the image data of each color component of CMYK for a plurality of pixels, the image data of each color component of CMYK is correctly included at each pixel position. Therefore, by performing the processing by the CMY conversion processing unit 84 after the reduction processing, it is possible to display an image with a correct color on the color display device 7.

  The RGB conversion processing unit 85 performs reverse processing of the RGB → CMY conversion processing by the input correction processing unit 32 of the image processing unit 3, thereby converting the CMY color component image data after processing by the CMY conversion processing unit 84 into CMY colors. Are converted into Z-bit image data proportional to the respective color densities (luminances) of the three primary colors RGB.

  The γ correction / color correction processing unit 86 applies the color display device 7 to the Z-bit image data of the RGB color components generated by the RGB conversion processing unit 85 according to the output characteristics (color development characteristics) of the color display device 7. In order to provide a color correction process for matching the color of the image displayed on the image to the color of the image output on the recording sheet by the image output unit 6 and a gradation characteristic proportional to the luminance of the color display device 7. Γ correction processing is performed. The Z-bit image data of each RGB color component after the color correction processing and the γ correction processing is output to the color display device 7, whereby the preview image or thumbnail image based on the Z-bit image data of each RGB color component is color-coded. It is displayed on the display device 7.

  As described above, according to this embodiment, the image data of the image to be output on the recording sheet by the image output unit 6 is written in the image memory 4, and the image written and held in the image memory 4 is stored. A preview image or thumbnail image is displayed on the color display device 7 based on the data. The image data written in the image memory 4 is image data of each color component of CMYK after halftone processing, the bit width of which is smaller than the bit width Z of the image data to be input to the color display device 7, and the CCD image Since the bit width of the image data acquired by reading the original image by the sensor 1 is smaller, the image data having the same bit width as the image data input to the color display device 7 is held in the memory, or the CCD image sensor 1 As compared with a configuration in which image data acquired by reading a document image is held in a memory, a storage area for storing image data necessary for preview display or thumbnail display can be reduced.

  Although one embodiment of the present invention has been described above, the present invention can be implemented in other forms. For example, as shown by a two-dot chain line in FIG. 2, the digital color multifunction peripheral according to the above embodiment is based on Y (Y: integer of 2 or more) bit image data having a bit width different from that of the color display device 7. A color display device 70 for displaying an image may be additionally connected. In this case, it is necessary to generate Y-bit image data of RGB color components as input image data to the color display device 70. In order to generate Y-bit image data of each RGB color component, for example, in parallel with the preview / thumbnail image processing unit 8, the X-bit, P-bit, or F-bit of each CMYK color component read and input from the image memory 4 is input. After bit width conversion of bit image data to Y bit image data, reduction processing, CMY conversion processing, RGB conversion processing, color correction processing, and γ correction processing are performed on the image data after the bit width conversion. A processing unit may be provided. Further, as indicated by a two-dot chain line in FIG. 2, a γ correction / color correction / bit width conversion processing unit 87 is provided in parallel with the γ correction / color correction processing unit 86 in the subsequent stage of the RGB conversion processing unit 85. The γ correction / color correction / bit width conversion processing unit 87 may convert the Z-bit image data of RGB color components into Y-bit image data. In this case, the generation of the Z-bit image data to be input to the color display device 7 and the generation of the Y-bit image data to be input to the color display device 70 include a bit width conversion processing unit 81, a reduction processing unit 82, a reduction rate. The determination processing unit 83, the CMY conversion processing unit 84, and the RGB conversion processing unit 85 can be shared, and the cost increase of the digital color multifunction peripheral can be suppressed.

  The γ correction / color correction / bit width conversion processing unit 87 applies the Z-bit image data of the RGB color components generated by the RGB conversion processing unit 85 according to the output characteristics (color development characteristics) of the color display device 70. Color correction processing for matching the color of the image displayed on the color display device 70 with the color of the image output on the recording sheet by the image output unit 6, and the gradation proportional to the luminance of the color display device 70 A γ correction / bit width conversion process for converting the bit width from Z to Y is performed. The γ correction / bit width conversion process can be achieved by using a lookup table created in advance. For example, when Z = 8 and Y = 7, it is possible to convert 8-bit image data of each RGB color component into 7-bit image data of each RGB color component using a lookup table having the characteristics shown in FIG. it can.

  In addition, various design changes can be made within the scope of matters described in the claims.

1 is a block diagram showing a configuration of a digital color multifunction peripheral according to an embodiment of the present invention. It is a block diagram showing a configuration of a preview / thumbnail image processing unit. It is a figure which shows the example of a characteristic of the look-up table used by (gamma) correction and bit width conversion processing.

Explanation of symbols

3 image processing unit 4 image memory 5 memory control unit 6 image output unit 7 color display device 8 preview / thumbnail image processing unit 37 halftone processing unit 70 color display device 81 bit width conversion processing unit 82 reduction processing unit 83 reduction rate determination processing 84 CMY conversion processing unit 85 RGB conversion processing unit 86 γ correction / color correction processing unit 87 γ correction / color correction / bit width conversion processing unit

Claims (7)

Halftone processing means for generating image data of CMYK color components having a bit width smaller than that of the input image data by performing halftone processing on the input image data of CMYK color components;
An image memory for holding image data of CMYK color components generated by the halftone processing means;
Image output means for outputting a color image on a recording sheet using colorants of each color of CMYK based on the image data of each color component of CMYK held in the image memory;
A color display device that displays an image based on image data of RGB color components;
Display data generating means for generating image data of RGB color components to be input to the color display device by performing predetermined processing on the image data of CMYK color components held in the image memory. A color image forming apparatus.   The display data generation means performs a reduction process for obtaining an addition average value of image data for the number of pixels corresponding to a predetermined reduction ratio for each color component of CMYK, and displays the addition average value on the color display device. The color image forming apparatus according to claim 1, further comprising a reduction processing unit that outputs the image data of one pixel of the power image.   The display data generation means performs the reduction processing based on the bit width of image data of each color component of CMYK held in the image memory and the bit width of image data of each color component of RGB to be input to the color display device. 3. The color image forming apparatus according to claim 2, further comprising a reduction rate limiting means for setting an upper limit value of the reduction rate in the reduction processing by the means.   The display data generation means converts the bit width of the image data of CMYK color components to the same bit width as the image data of the RGB color components to be input to the color display device before the reduction processing means. 4. The color image forming apparatus according to claim 2, further comprising a bit width conversion processing unit. The display data generation means is downstream of the reduction processing means.
CMY conversion processing means for generating CMY color component image data not including K color component image data from the CMYK color component image data output from the reduction processing means;
5. The RGB conversion processing means for converting the image data of each CMY color component generated by the CMY conversion processing means into image data of each RGB color component, further comprising: Color image forming apparatus. The color image forming apparatus includes:
A second color display device configured to display an image based on image data having a bit width different from that of the image data input to the color display device;
The image processing apparatus further includes second bit width conversion processing means for converting the bit width of the image data of each RGB color component generated by the RGB conversion processing means into the bit width of the image data to be input to the second color display device. The color image forming apparatus according to claim 5. A color image processing apparatus applied to a color image forming apparatus that forms a color image on a recording sheet using colorants of CMYK colors,
An image memory for holding image data of CMYK color components subjected to halftone processing;
By performing predetermined processing on the image data of each color component of CMYK held in the image memory, each color of RGB for each pixel of the image to be displayed on the color display device provided in the color image forming apparatus A color image processing apparatus comprising: display data generating means for generating image data of components.

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